阅读说明：本技术 一种感温筒自动焊接设备 (Automatic welding equipment for temperature sensing cylinder ) 是由 林福海 陈决顺 杨国胜 于 2020-12-08 设计创作，主要内容包括：本发明提出一种感温筒自动焊接设备,包括第一送料机构、第二送料机构、第三送料机构、转盘以及焊接机构,转盘上设置有夹持机构,第一送料机构上把感温筒送至转盘上的加持机构上,第二送料机构把充液管送至感温筒的上端开口上,第三送料机构把焊环套在充液管上并位于感温筒的开口处,感温筒随转盘运动送至焊接工位,焊接机构为高频焊接机,焊接机构设置有感应圈,感应圈沿感温筒的径向方向运动并把感温筒以及充液管焊接一起,形成自动化生产焊接感温筒,生产效率高,且把手工焊接改变成机器自动焊接,降低了生产难度,形成标准化生产,提高了生产质量,且采用高频焊接不会产生有害有毒气体,使得焊接无污染,生产环保、卫生,提高了生产效益。(The invention provides automatic welding equipment for a temperature sensing cylinder, which comprises a first feeding mechanism, a second feeding mechanism, a third feeding mechanism, a rotary table and a welding mechanism, wherein a clamping mechanism is arranged on the rotary table, the temperature sensing cylinder is conveyed to a holding mechanism on the rotary table by the first feeding mechanism, a liquid filling pipe is conveyed to an opening at the upper end of the temperature sensing cylinder by the second feeding mechanism, a welding ring is sleeved on the liquid filling pipe by the third feeding mechanism and is positioned at the opening of the temperature sensing cylinder, the temperature sensing cylinder moves along with the rotary table and is conveyed to a welding station, the welding mechanism is a high-frequency welding machine, the welding mechanism is provided with an induction coil, the induction coil moves along the radial direction of the temperature sensing cylinder and welds the temperature sensing cylinder and the liquid filling pipe together to form the automatic production welding temperature sensing cylinder, the production efficiency is high, the manual welding is changed into the automatic welding of a machine, the production difficulty is reduced, the standardized production is formed, the production, the welding is pollution-free, the production is environment-friendly and sanitary, and the production benefit is improved.)

1. The utility model provides a temperature sensing section of thick bamboo automatic weld equipment, its characterized in that, includes first feeding mechanism, second feeding mechanism, third feeding mechanism, carousel and welding mechanism, be provided with fixture on the carousel, on sending the temperature sensing section of thick bamboo to the mechanism of holding with on the carousel on the first feeding mechanism, second feeding mechanism sends the liquid filling pipe to the upper end opening of temperature sensing section of thick bamboo on, third feeding mechanism overlaps the welding ring on the liquid filling pipe and is located the opening part of temperature sensing section of thick bamboo, and the temperature sensing section of thick bamboo is sent to the welding station along with the carousel motion, welding mechanism is the high frequency welding machine, welding mechanism is provided with the induction coil, the induction coil is along the radial direction motion of temperature sensing section of thick bamboo and is in the same place temperature sensing section of thick bamboo and liquid filling pipe welding.

2. The automatic welding equipment of the temperature-sensing cylinder according to claim 1, wherein the first feeding mechanism is provided with a hopper and a roller provided at an outlet of the hopper, the roller rotates along a central axis, and a plurality of troughs are uniformly provided on a surface of the roller.

3. The automatic welding equipment for the temperature-sensing cylinders according to claim 2, wherein a first push rod is arranged at a discharge port of the shaft roller, after the temperature-sensing cylinders are conveyed to a set position by the first push rod, the first temperature-sensing cylinder arm clamps the temperature-sensing cylinders and conveys the temperature-sensing cylinders to a first transfer position, and the second temperature-sensing cylinder arm conveys the temperature-sensing cylinders at the first transfer position to a clamping mechanism on the turntable.

4. The automatic welding equipment of temperature-sensing cylinder according to claim 3, wherein a first rotating pair is provided at the first turning position, and the first rotating pair moves the temperature-sensing cylinder placed transversely to a vertical position.

5. The automatic welding device for the temperature-sensing cylinder according to claim 1, wherein the second feeding mechanism is provided with a first vibrating disk, the liquid charging pipe is arranged in the first vibrating disk and moves along the track of the first vibrating disk, a second rotating pair is arranged at the discharge port of the first vibrating disk, and the second rotating pair moves the liquid charging pipe which is horizontally arranged to a vertical position.

6. The automatic welding equipment of the temperature sensing cylinder according to claim 5, wherein the second feeding mechanism is further provided with a first liquid filling pipe arm and a second liquid filling pipe arm, the first liquid filling pipe arm sends the liquid filling pipe to the second transfer position, and the second liquid filling pipe arm sends the liquid filling pipe at the second transfer position to the opening of the temperature sensing cylinder.

7. The automatic welding apparatus for a temperature sensing cylinder according to claim 1, wherein the third feeding mechanism is provided with a second vibration plate having a feeding passage and a solder moving mechanism located at a terminal end of the feeding passage.

8. The automatic welding equipment of the temperature-sensing cylinder according to claim 7, wherein the solder feeding mechanism is provided with a z cylinder moving along a z axis and an x cylinder moving towards the clamping mechanism of the turntable, the x cylinder is mounted on the z cylinder and moves along a vertical direction, and a tapered rod is arranged on the x cylinder.

9. The automatic welding equipment for the temperature sensing cylinder according to claim 1, wherein the high frequency welding machine is mounted on a support, a slide rail is arranged on the support, the high frequency welding machine moves along the slide rail, an air cylinder is further arranged on the support, the air cylinder is connected with the high frequency welding machine to drive the high frequency welding machine to move, or a driving motor is further arranged on the support, and the driving motor is connected with the high frequency welding machine through a screw rod to drive the high frequency welding machine to move.

10. The automatic welding equipment of the temperature-sensing cylinder according to claim 1, further comprising a blanking mechanism, wherein the blanking mechanism is provided with a blanking arm, the blanking arm is provided with a blanking clamping arm, and the blanking clamping arm moves along the direction of the sliding rod of the blanking arm.

Technical Field

The invention relates to automatic welding equipment for a temperature sensing cylinder.

Background

The temperature sensing section of thick bamboo of current temperature controller melts behind the welding wire through combustible gas when production and is in the same place liquid filling pipe and temperature sensing section of thick bamboo welding, this kind of mode needs skilled workman to drip to between temperature sensing section of thick bamboo and the liquid filling pipe after the welding flux is close to flame fast and melts when producing, the production degree of difficulty is high, the cost of labor is high, and cause the injury to workman's eyes, produce a large amount of poisonous harmful waste gas, influence the healthy of workman, and the work piece that production meeting exists very big difference in the welding, be difficult to unified standard, welding speed is slow, low efficiency, can not satisfy the production needs.

Disclosure of Invention

In order to solve the problems, the invention provides automatic welding equipment for a temperature sensing cylinder, and aims to solve the problem that the manual welding efficiency of the temperature sensing cylinder is low.

The invention provides automatic welding equipment for a temperature sensing cylinder, which comprises a first feeding mechanism, a second feeding mechanism, a third feeding mechanism, a rotary table and a welding mechanism, wherein a clamping mechanism is arranged on the rotary table, the temperature sensing cylinder is fed onto a holding mechanism on the rotary table by the first feeding mechanism, a liquid filling pipe is fed onto an opening at the upper end of the temperature sensing cylinder by the second feeding mechanism, a welding ring is sleeved on the liquid filling pipe by the third feeding mechanism and is positioned at the opening of the temperature sensing cylinder, the temperature sensing cylinder moves along with the rotary table and is fed to a welding station, the welding mechanism is a high-frequency welding machine, the welding mechanism is provided with an induction ring, the induction ring moves along the radial direction of the temperature sensing cylinder and welds the temperature sensing cylinder and the liquid filling pipe together, an automatic production welding temperature sensing cylinder is formed through the three automatic feeding mechanisms and the automatic welding mechanism, the production efficiency is high, and the manual welding is changed into automatic, the production difficulty is reduced, standardized production is formed, the production quality is improved, and no harmful and toxic gas is generated by adopting high-frequency welding, so that the welding is pollution-free, the eyes are not hurt, the production is environment-friendly and sanitary, the labor cost is greatly reduced, and the production benefit is improved.

In one or more embodiments, the first feeding mechanism is provided with a hopper and a roller arranged at an outlet of the hopper, the roller rotates along a central shaft, and a plurality of material grooves are uniformly arranged on the surface of the roller.

In one or more embodiments, a first push rod is arranged at the discharge port of the shaft roller, after the first push rod sends the temperature sensing cylinder to the set position, the first temperature sensing cylinder arm clamps the temperature sensing cylinder and sends the temperature sensing cylinder to the first transfer position, and the second temperature sensing cylinder arm sends the temperature sensing cylinder at the first transfer position to the clamping mechanism on the rotating disc.

In one or more embodiments, a first rotating pair is disposed at the first transfer position, and the first rotating pair moves the temperature sensing cylinder disposed horizontally to a vertical position.

In one or more embodiments, the second feeding mechanism is provided with a first vibration disc, the liquid filling pipe is arranged in the first vibration disc and moves along the track of the first vibration disc, a second rotating pair is arranged at the discharge port of the first vibration disc, and the second rotating pair moves the liquid filling pipe which is horizontally placed to a vertical position.

In one or more embodiments, the second feeding mechanism is further provided with a first liquid-filled pipe arm and a second liquid-filled pipe arm, the first liquid-filled pipe arm sends the liquid filling pipe to the second transfer position, and the second liquid-filled pipe arm sends the liquid filling pipe at the second transfer position to the opening of the temperature-sensing cylinder.

In one or more embodiments, the third feeding mechanism is provided with a second vibration disc and a solder moving mechanism, the second vibration disc is provided with a feeding channel, and the solder moving mechanism is positioned at the terminal of the feeding channel.

In one or more embodiments, the solder feeding mechanism is provided with a z cylinder moving along a z axis and an x cylinder moving towards the clamping mechanism of the turntable, the x cylinder is mounted on the z cylinder and moves along a vertical direction, and a conical rod is arranged on the x cylinder.

In one or more embodiments, the high-frequency welding machine is mounted on a support, a sliding rail is arranged on the support, the high-frequency welding machine moves along the direction of the sliding rail, an air cylinder is further arranged on the support, the air cylinder is connected with the high-frequency welding machine to drive the high-frequency welding machine to move, or a driving motor is further arranged on the support, and the driving motor is connected with the high-frequency welding machine through a lead screw to drive the high-frequency welding machine to move.

In one or more embodiments, the blanking mechanism is further provided with a blanking arm, the blanking arm is provided with a blanking clamping arm, and the blanking clamping arm moves along the direction of the sliding rod of the blanking arm.

The invention has the beneficial effects that: through three autoloading structure and automatic weld mechanism, form automated production welding temperature sensing section of thick bamboo, production efficiency is high, and changes into machine automatic weld to the manual work welding, has reduced the production degree of difficulty, forms standardized production, has improved production quality, and adopts high frequency welding can not produce harmful toxic gas for the welding is pollution-free, does not hinder the eye, and production environmental protection, health have greatly reduced the cost of labor, have improved the productivity effect.

Drawings

Fig. 1 is a schematic structural view of an automatic welding device for a temperature sensing cylinder.

Fig. 2 is a schematic view of a first feeding mechanism of the automatic welding equipment for the temperature sensing cylinder.

Fig. 3 is a schematic view of a second feeding mechanism of the automatic welding equipment for the temperature sensing cylinder.

Fig. 4 is another schematic view of the second feeding mechanism of the automatic welding device for temperature sensing cylinders.

Fig. 5 is a schematic view of a third feeding mechanism of the automatic welding equipment for the temperature sensing cylinder.

Fig. 6 is a schematic view of a turntable and a welding mechanism of an automatic welding device for a temperature sensing cylinder.

Fig. 7 is a schematic view of a blanking mechanism of the automatic welding equipment for the temperature-sensing cylinder.

Fig. 8 is a schematic structural view of a conical rod of the automatic welding equipment for the temperature sensing cylinder.

Detailed Description

The application scheme is further described below with reference to the accompanying drawings:

referring to the attached drawings 1-8, an automatic welding device for a temperature sensing cylinder comprises a first feeding mechanism 1, a second feeding mechanism 2, a third feeding mechanism 3, a rotary table 4 and a welding mechanism 5, wherein an air cylinder clamp 41 is arranged on the rotary table 4, the temperature sensing cylinder is conveyed to the air cylinder clamp 41 on the rotary table 4 on the first feeding mechanism 1, a liquid filling pipe is conveyed to an opening at the upper end of the temperature sensing cylinder by the second feeding mechanism 2, a welding ring is sleeved on the liquid filling pipe and positioned at an opening of the temperature sensing cylinder by the third feeding mechanism 3, the temperature sensing cylinder is conveyed to a welding station along with the movement of the rotary table 4, the welding mechanism 5 is a high-frequency welding machine, the welding mechanism 5 is provided with an induction coil 51, and the induction coil 51 moves along the radial direction of the temperature sensing cylinder and welds the temperature sensing cylinder and the liquid filling pipe.

Further, the first feeding mechanism 1 is provided with a hopper 11 and a shaft roller 12 arranged at an outlet of the hopper 11, the shaft roller 12 rotates along a central shaft, and a plurality of material grooves 13 are uniformly arranged on the surface of the shaft roller 12.

Further, a first push rod 14 is arranged at a discharge port of the shaft roller 12, after the temperature sensing cylinder is conveyed to a set position by the first push rod 14, the temperature sensing cylinder is clamped by a first temperature sensing cylinder arm 15 and conveyed to a first transfer position 18, the temperature sensing cylinder at the first transfer position 18 is conveyed to a cylinder clamp 41 on the rotary table 4 by a second temperature sensing cylinder arm 16, and the first temperature sensing cylinder arm 15 and the second temperature sensing cylinder arm 16 are both cylinder clamps.

Further, a first rotating pair 17 is arranged on the first transfer position 18, the first rotating pair 17 moves the temperature sensing cylinder placed transversely to a vertical position, and a rotating motor is arranged on the first rotating pair 17.

Further, second feeding mechanism 2 is provided with first vibration dish 21, and the liquid charging pipe sets up in first vibration dish 21 and moves along the track 22 of first vibration dish 21, and the discharge gate department of first vibration dish 21 is provided with second revolute pair 23, and second revolute pair 23 moves horizontal liquid charging pipe to vertical setting of placing, second revolute pair 23 is provided with rack, cylinder and axis of rotation, be provided with in this axis of rotation with rack toothing's gear, this cylinder drives the rack and rotates and then drive gear and axis of rotation and rotate, forms the revolute pair.

Further, the second feeding mechanism 2 is further provided with a first liquid filling pipe arm 24 and a second liquid filling pipe arm 25, the first liquid filling pipe arm 24 sends a liquid filling pipe to a second transfer position 26, the second liquid filling pipe arm 25 sends the liquid filling pipe at the second transfer position 26 to an opening of the temperature sensing cylinder, and the first liquid filling pipe arm 24 and the second liquid filling pipe arm 25 are cylinder clamps.

Further, the third feeding mechanism 3 is provided with a second vibration disc 31 and a solder moving mechanism 32, the second vibration disc 31 is provided with a feeding channel 33, and the solder moving mechanism 32 is located at the terminal of the feeding channel 33.

Further, the solder feeding mechanism 32 is provided with a z cylinder 34 moving along the z axis and an x cylinder 35 moving towards the clamping mechanism of the turntable, the x cylinder 35 is mounted on the z cylinder 34 and moves along the vertical direction, and a tapered rod 36 is arranged on the x cylinder 35.

Further, the high-frequency welding machine is mounted on a support, a sliding rail 53 is arranged on the support 52, the high-frequency welding machine moves along the direction of the sliding rail 53, an air cylinder 54 is further arranged on the support 52, the air cylinder 54 is connected with the high-frequency welding machine to drive the high-frequency welding machine to move, or a driving motor is further arranged on the support 52, and the driving motor is connected with the high-frequency welding machine through a screw rod to drive the high-frequency welding machine to move.

Further, a blanking mechanism 6 is further provided, the blanking mechanism is provided with a blanking arm 61, a blanking clamping arm 62 is provided on the blanking arm 61, and the blanking clamping arm 62 moves along the sliding rod direction of the blanking arm 61.

The above preferred embodiments should be considered as examples of the embodiments of the present application, and technical deductions, substitutions, improvements and the like similar to, similar to or based on the embodiments of the present application should be considered as the protection scope of the present patent.